README.md
In fmannhardt/pm4py: Interface to the 'PM4py' Process Mining Library
R Interface to the PM4Py Process Mining Library
The goal of the R package 'pm4py' is to provide a bridge between bupaR and the Python library 'PM4Py'.
Installation
You can install the released CRAN version of pm4py with:
install.packages("pm4py")
You can install the development version of pm4py from the dev branch with:
remotes::install_github("bupaverse/pm4py@dev")
Then, automatically install the pm4py package in a virtual or Conda environment:
pm4py::install_pm4py()
See the 'reticulate' documentation for more information on the available options or how to specify an existing Python environment:
https://rstudio.github.io/reticulate/
PM4Py Version
To facilitate getting stable results and to reduce the number of regressions due to API changes in PM4Py, this package is built against a fixed PM4Py version that is defined in the file R/version.R. We also adopt the versioning schema of the PM4Py project for this R package. So, the R package version 1.1.19 will install the PM4Py version 1.1.19.
In case of fixes required to the R package itself, for example, for bugs or adopting new features, we will add a suffix -rev to the version to indicate the change. Of course, nothing prevents you from manually overriding the synchronisation between the PM4Py version and the R PM4Py package version using the parameter version as follows:
pm4py::install_pm4py(version = "1.2.7")
Example
library(pm4py)
# Most of the data structures are converted in their bupaR equivalents
library(bupaR)
# As Inductive Miner of PM4PY is not life-cycle aware, keep only `complete` events:
patients_completes <- patients[patients$registration_type == "complete", ]
# Discovery with Inductive Miner
pn <- discovery_inductive(patients_completes)
# This results in an auto-converted bupaR Petri net and markings
str(pn)
class(pn$petrinet)
# Render with bupaR
render_PN(pn$petrinet)
# Render with PM4PY and DiagrammeR
library(DiagrammeR)
viz <- reticulate::import("pm4py.visualization.petrinet")
# Convert back to Python
py_pn <- r_to_py(pn$petrinet)
class(py_pn)
# Render to DOT with PMP4Y
dot <- viz$factory$apply(py_pn)$source
grViz(diagram = dot)
# Compute alignment
alignment <- conformance_alignment(patients_completes, pn$petrinet, pn$initial_marking, pn$final_marking)
# # Alignment is returned in long format as data frame
head(alignment)
# Evaluate model quality
quality <- evaluation_all(patients_completes, pn$petrinet, pn$initial_marking, pn$final_marking)
fmannhardt/pm4py documentation built on July 21, 2023, 10:55 p.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
R Interface to the PM4Py Process Mining Library
The goal of the R package 'pm4py' is to provide a bridge between bupaR and the Python library 'PM4Py'.
Installation
You can install the released CRAN version of pm4py with:
install.packages("pm4py")
You can install the development version of pm4py from the dev branch with:
remotes::install_github("bupaverse/pm4py@dev")
Then, automatically install the pm4py package in a virtual or Conda environment:
pm4py::install_pm4py()
See the 'reticulate' documentation for more information on the available options or how to specify an existing Python environment: https://rstudio.github.io/reticulate/
PM4Py Version
To facilitate getting stable results and to reduce the number of regressions due to API changes in PM4Py, this package is built against a fixed PM4Py version that is defined in the file R/version.R. We also adopt the versioning schema of the PM4Py project for this R package. So, the R package version 1.1.19 will install the PM4Py version 1.1.19.
In case of fixes required to the R package itself, for example, for bugs or adopting new features, we will add a suffix -rev to the version to indicate the change. Of course, nothing prevents you from manually overriding the synchronisation between the PM4Py version and the R PM4Py package version using the parameter version as follows:
pm4py::install_pm4py(version = "1.2.7")
Example
library(pm4py)
# Most of the data structures are converted in their bupaR equivalents
library(bupaR)
# As Inductive Miner of PM4PY is not life-cycle aware, keep only `complete` events:
patients_completes <- patients[patients$registration_type == "complete", ]
# Discovery with Inductive Miner
pn <- discovery_inductive(patients_completes)
# This results in an auto-converted bupaR Petri net and markings
str(pn)
class(pn$petrinet)
# Render with bupaR
render_PN(pn$petrinet)
# Render with PM4PY and DiagrammeR
library(DiagrammeR)
viz <- reticulate::import("pm4py.visualization.petrinet")
# Convert back to Python
py_pn <- r_to_py(pn$petrinet)
class(py_pn)
# Render to DOT with PMP4Y
dot <- viz$factory$apply(py_pn)$source
grViz(diagram = dot)
# Compute alignment
alignment <- conformance_alignment(patients_completes, pn$petrinet, pn$initial_marking, pn$final_marking)
# # Alignment is returned in long format as data frame
head(alignment)
# Evaluate model quality
quality <- evaluation_all(patients_completes, pn$petrinet, pn$initial_marking, pn$final_marking)
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.